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| Tiêu đề | Nghiên Cứu Trường Nhiệt Độ Và Độ Ẩm Của Không Khí Qua Thiết Bị Bay Hơi Kênh Mini Dùng Môi Chất Lạnh CO2 |
|---|---|
| Tác giả | Lê Trung Hậu, Nguyễn Ngọc Khơi, Huỳnh Minh Thuận |
| Người hướng dẫn | PGS. TS Đặng Thành Trung |
| Trường học | Trường Đại Học Sư Phạm Kỹ Thuật Thành Phố Hồ Chí Minh |
| Chuyên ngành | Công Nghệ Kỹ Thuật Nhiệt |
| Thể loại | Đồ Án Tốt Nghiệp |
| Năm xuất bản | 2019 |
| Thành phố | TP. Hồ Chí Minh |
| Định dạng | |
|---|---|
| Số trang | 79 |
| Dung lượng | 11,29 MB |
Nội dung
Ngày đăng: 19/07/2021, 09:46
Nguồn tham khảo
| Tài liệu tham khảo | Loại | Chi tiết |
|---|---|---|
| [1] N. Thiwaan Rao A.N. Oumer U.K. Jamaludin. State-of-the-Art on Flow and heat transfer characteristics of supercritical CO 2 in various channels. The Journal of Supercritical Fluids (30-5-2016), 132-147 | Khác | |
| [2] Pravin Jadhav, Neeraj Agrawal, Omprakash Patil. Flow characteristics of helical capillary tube for transcritical CO 2 refrigerant flow. international Conference on Recent Advancement in Air Conditioning and Refrigeration, RAAR 2016, 10-12 November 2016, Bhubaneswar, India. Energy Procedia 109 (2017) 431 – 438 | Khác | |
| [3] Brian T. Austin, K. Sumathy. Transcritical carbon dioxide heat pump systems.Elsevier (2011), 4013-4029 | Khác | |
| [4] Paride Gullo, Konstantinos Tsamos, Armin Hafner, Yunting Ge, Savvas A. Tassou.International Conference on Sustainable Energy and Resource Use in Food Chains, ICSEF 2017, 19-20 April 2017, Berkshire, UK | Khác | |
| [5] Pradeep Bansal, A review e Status of CO 2 as a low temperature refrigerant:Fundamentals and R&D opportunities. Department of Mechanical Engineering, The University of Auckland, Private Bag, 92019 Auckland, New Zealand. Applied Thermal Engineering 41 (2012) 18-29 | Khác | |
| [6] IDewa M.C. Santosa, Baboo L. Gowreesunker a, Savvas A. Tassou a, Konstantinos M. Tsamos, Yunting Ge. Investigations into air and refrigerant side heat transfer coefficients of finned-tube CO 2 gas coolers. International Journal of Heat and Mass Transfer 107 (2017) 168–180 | Khác | |
| [7] Nguyen B. Chien, Pham Q. Vu, Kwang-Il Choi, Jong-Taek Oh. Boiling Heat Transfer of R32, CO 2 and R290 inside Horizontal Minichannel. The 8th International Conference on Applied Energy. Energy Procedia 105 (2017) 4822 – 4827 | Khác | |
| [8] Yang Yingying, Li Minxia, Wang Kaiyang, Ma Yitai. Study of multi-twisted-tube gas cooler for CO 2 heat pump water heaters. Applied Thermal Engineering 102 (2016) 204–212 | Khác | |
| [9] Jifeng Jin, Jiangping Chen, Zhijiu Chen. Development and validation of a microchannel evaporator model for a CO 2 air-conditioning system. Applied Thermal Engineering 31 (2011) 137-146 | Khác | |
| [10] Fadil Ayad, Riad Benelmir, Ali Souayed. CO 2 evaporators design for vehicle HVAC operation. Applied Thermal Engineering 36 (2012) 330-344 | Khác | |
| [11] Jae Seung Lee, Mo Se Kim, Min Soo Kim. Studies on the performance of a CO 2air conditioning system using an ejector as an expansion device. International Journal of Refrigeration 38 (2014) 140-152 | Khác | |
| [12] Hainan Zhanga,, Shuangquan Shao, Tingxiang Jin, Changqing Tian. Numerical investigation of a CO 2 loop thermosyphon in an integrated air conditioning system for free cooling of data centers. Applied Thermal Engineering (2017) 1134-1140 | Khác | |
| [13] Xinyu Zhang, Yunting Ge, Jining Sun, Liang Li, Savvas A. Tassou. CFD Modelling of Finned-tube CO 2 Gas Cooler for Refrigeration Systems. Energy Procedia 161 (2019) 275–282 | Khác | |
| [14] Lixin Cheng, Gherhardt Ribatski, John R. Thome. Analysis of supercritical CO2 cooling in macro- and micro-channels. International Journal of Refrigeration 31 (2008) 1301-1316 | Khác | |
| [15] Chi-Chuan Wang, Armin Hafner, Cheng-Shu Kuo, Wen-Der Hsieh. An overview of the effect of lubricant on the heat transfer performance on conventional refrigerants and natural refrigerant R744. Renewable and Sustainable Energy Review 16 (2012) 5071-5086 | Khác | |
| [16] Mikolaj Mastrowskia, Jacek Smolka, Armin Hafner, Michal Haida, Michal Palacz, Krzysztof Banasiak. Experimental study of the heat transfer problem in expansion devices in CO 2 refrigeration systems. Elsevier (2019) 586-597 | Khác | |
| [17] He Yang, Deng Jianqiang, Yang Fusheng, Zhang Zaoxiao. An optimal multivariable controller for transcritical CO2 refrigeration cycle with an adjustable ejector. Energy Conversion and Management 142 (2017), 466-476 | Khác | |
| [18] Rodrigo Llopis, Laura Nebot-Andrés, Daniel Sánchez, Jesús Catalán-Gil, Ramón Cabello. Subcooling methods for CO 2 refrigeration cycles. International Journal of Refrigeration (2018), 85-107.ĐỒ ÁN TỐT NGHIỆP | Khác |
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